Electronic Module

ABSTRACT

Production method for an electronic module, comprising a housing and at least one electronic assembly, wherein the electronic assembly is arranged, in particular at least partially, in an interior chamber of the housing, wherein, however, electrical contacts are guided through the housing wall, out of the interior chamber of the housing, to an outer face of the housing, wherein the interior chamber of the housing is filled with a casting compound at least in such a way that the casting compound covers passage points in the housing wall at which the electrical contacts are guided through the housing wall, wherein a layer of the at least one assembly is removed at least in the region of the passage points in the housing wall.

The invention relates to a production method for an electronic module as claimed in the preamble of claim 1, and to an electronic module as claimed in the preamble of claim 9.

The prior art discloses surrounding electrical assemblies with a housing for the purpose of protecting against mechanical damage and also against environmental influences. It is likewise known to partially or completely fill the interior space in the housing in which the assembly is arranged with a casting compound in order to provide yet further protection. Finally, it is also known to surround the assembly, which can comprise an electrical conductor, for example a so-called shunt or a terminal of a plug, for example, with a protective layer, so that the assembly is even more effectively shielded against environmental influences. It is also often the case that only the conductor is surrounded by the protective layer. In this case, said protective layer serves to prevent oxidation or corrosion of the conductor surface and is furthermore necessary to prevent other negative effects which are known to a person skilled in the art in this connection.

Reliable connection of the casting compound to the housing, said connection providing reliable shielding against environmental influences and, respectively, being tight, is usually ensured. Owing to plasma activation of the housing, said plasma activation being known to a person skilled in the art, said connection can even be further improved for certain material combinations of the housing and the casting compound. A tight connection between the casting compound and different metals is likewise usually ensured.

However, one common problem which occurs in this connection is that the casting compound forms only inadequate connection with said protective layer, so that the connection between the conductor and the casting compound is broken in the event of changes in temperature or under the action of certain environmental media or environmental influences, this leading to the overall protective effect being adversely affected. By way of example, different types of contamination, for example water, can enter the housing through the gap which is produced between the protective layer and the casting compound and adversely affect the functioning of the assembly or destroy the assembly.

One object of the invention is to avoid the disadvantages which are produced by the comparatively poor connection between the casting compound and the protective layer.

This object is achieved by the method as claimed in claim 1 and by the electronic module as claimed in claim 9.

It is preferred to partially remove the protective layer and/or layer fully or partially from metallic points of the assembly or of the conductor or of the shunt before filling the housing with the casting compound. Since the metal beneath the protective layer is therefore exposed, the casting compound can form a reliable connection with the metal.

The term ‘layer’ is preferably understood to mean surface material of the conductor or shunt, wherein this surface material is, in particular, different from the main material of the conductor or shunt and therefore forms a protective layer or another additional, separate layer, or wherein said surface material is, in particular, the same material as or integral material with the conductor or shunt and it is only the surface material with a defined surface extent and defined thickness which is removed, for example by laser ablation.

By virtue of removing the layer and/or protective layer, the surface of the conductor or shunt which is exposed or locally exposed as a result is expediently activated or chemically activated or the roughness of said surface is increased. It is particularly preferred that the exposed surface of the conductor or shunt is oxidized, at least partially, by the removal of the layer and/or protective layer.

It is preferred that the layer, which is removed, of the at least one assembly is a protective layer.

It is preferred that the assembly comprises an electrical conductor, in particular in the form of a shunt, from which the layer is removed.

It is expedient that the electrical conductor, in particular in the form of a shunt, comprises the electrical contacts which are routed through the housing wall.

The layer or protective layer is preferably removed by means of ablation. In this case, the ablation is performed or carried out, in particular, by means of laser light and/or electrical energy, in particular electric current.

It is expedient that the ablation is performed as part of a joining process of the at least one assembly. In this case, the electrical conductor or shunt is, in particular, inserted into the housing or the housing is injection-molded and formed onto or around the shunt/conductor, wherein the electrical contacts of the conductor or shunt are routed through the housing wall, after which the ablation or removal of the layer is carried out at at least one point.

It is preferred that the layer or protective layer of the at least one assembly is removed from the conductor in the region of press-in pins which connect a conductor of the assembly to at least one assembly element, in particular in the respective region of a plurality of press-in pins.

It is expedient, in particular additionally, that the layer or protective layer of the at least one assembly is removed, in particular, from the conductor which comprises the electrical contacts, which are routed through the housing wall, in the region of said electrical contacts outside the housing.

Assembly elements or the electronics are preferably connected to the electrical conductor by means of press-in pins which are fastened on the conductor. Possible connection techniques include soldering, adhesive bonding, sintering, welding and other techniques which are known to a person skilled in the art in this connection.

The energy for welding the pins and/or for removing the layer or protective layer is preferably input either using laser light or using electric current.

The process of fastening the assembly elements or the electronics to the electrical conductor by means of the press-in pins is expediently used for the purpose of removing, for example by means of ablation, the protective layer in the region of the press-in pins by means of said input of energy using laser light or using electric current.

The layer or protective layer is preferably removed in such a way that a complete, closed surface is exposed without islands of protective layer remaining in the surface, or that a circumferential ring around one or more remaining islands of protective layer in the surface is exposed.

Therefore, only one single processing system (for example laser system or electricity system) or a single fixing process is necessary for connecting the casting compound to the assembly or to the conductor and for removing the protective layer.

The additional time required for removing the protective layer or for the ablation is negligibly low in this case.

The protective layer is preferably removed not only in the region of the press-in pins but, as an alternative or in addition, also in the region of an external contact-making zone or in the region of external plugs.

The electronic module is preferably developed such that the assembly comprises at least one electrical conductor and at least one assembly element, wherein the layer which is removed is removed from the conductor.

It is preferred that the layer, which is removed, of the at least one assembly is a protective layer.

It is expedient that the assembly element is an electronic circuit and/or an electronic arithmetic and logic unit.

It is preferred that the electrical conductor, in particular in the form of a shunt, comprises the electrical contacts which are routed through the housing wall.

The at least one assembly element and the at least one conductor are preferably electrically and mechanically connected to one another by means of press-in pins.

It is preferred that the casting compound covers the at least one conductor, at least within the housing.

It is expedient that the at least one assembly element is arranged in the housing outside the casting compound.

The electronic module is preferably designed such that the layer or protective layer of the at least one assembly is removed from the conductor in the region of the press-in pins.

It is preferred that the layer or protective layer of the at least one assembly is removed from the conductor in the region of the electrical contacts outside the housing.

The electronic module is preferably in the form of a battery sensor or in the form of part of a battery sensor, in particular for motor vehicles. To this end, said battery sensor expediently comprises a battery terminal for connection and for fastening to the pole of a vehicle battery.

Further preferred embodiments can be found in the dependent claims and the following description of an exemplary embodiment with reference to figures, in which

FIG. 1 shows, schematically and by way of example, an electronic assembly which is surrounded by a housing,

FIG. 2 shows, schematically and by way of example, an electronic assembly which is surrounded by a housing and has diffusion channels for contamination, and

FIG. 3 shows, schematically and by way of example, an electronic assembly which is surrounded by a housing and has diffusion channels which are interrupted according to the invention.

FIG. 1 shows an electronic assembly which is surrounded by housing 10 and comprises conductor 11 and assembly element 12. FIG. 1a shows an illustration from above, whereas FIG. 1b shows a side view. Conductor 11 and assembly element 12 are electrically and mechanically connected to one another by means of press-in pins 13. Conductor 11 is also held by protective layer 14 and encapsulated by casting compound 15. Casting compound 15 covers conductor 11 in housing 10 in such a way that only press-in pins 13 project out of casting compound 15. Casting compound 15 is directly connected to conductor 11 at points 16, this however leading to an only weak and unreliable connection owing to the material properties of casting compound 15 and conductor 11 according to the example. At points 17 however, protective layer 14 has been removed from conductor 11, so that the metallic material of conductor 11 is revealed at points 17. There is therefore a tight and reliable connection between casting compound 15 and conductor 11 at points for example. A good and reliable connection is likewise produced at point 18, in this case between housing 10 and casting compound 18.

FIG. 2 shows an electronic assembly which is surrounded by housing 20 and has diffusion channels 21 through which different types of contamination can enter housing 20 and can damage or destroy the assembly. Examples of contamination which can enter through diffusion channels 21 include water and salts. In this case, diffusion channels 21 are produced, for example, by conductor 22, which is surrounded by protective layer 23, not sealing tight to housing 20 and furthermore protective layer 23 not sealing tight to casting compound 24. Therefore, contamination can penetrate as far as press-in pins 27 and further along said press-in pins as far as assembly element 28 which can be damaged or destroyed by said contamination.

FIG. 3 shows an electronic assembly which is surrounded by housing 20 and has diffusion channels 21 which are interrupted according to the invention. Since conductor 22 at points 25 does not have a protective layer 23, a tight and reliable connection between conductor 22 and casting compound 24 is produced at points 25 according to the example. Therefore, points form interruptions in diffusion channels 21 and prevent contamination, such as water or salts for example, from reaching press-in pins 27 and corroding said pins. There is a likewise tight and reliable connection between housing 20 and casting compound 24 at points 26, so that no contamination can reach assembly element 28 here either. 

1. A production method for an electronic module, comprising a housing and at least one electronic assembly, wherein the electronic assembly is arranged, in particular at least partially, in an interior space in the housing, wherein however electrical contacts are routed through the housing wall, out of the interior space in the housing, to an outer face of the housing, wherein the interior space in the housing is filled with a casting compound at least in such a way that the casting compound covers passage points in the housing wall at which the electrical contacts are routed through the housing wall, characterized in that one layer of the at least one assembly is removed at least in the region of the passage points in the housing wall.
 2. The method as claimed in claim 1, characterized in that the layer, which is removed, of the at least one assembly is a protective layer.
 3. The method as claimed in claim 1, characterized in that the assembly comprises an electrical conductor, in particular in the form of a shunt, from which the layer is removed.
 4. The method as claimed in claim 3, characterized in that the electrical conductor, in particular in the form of a shunt, comprises the electrical contacts which are routed through the housing wall.
 5. The method as claimed in claim 1, characterized in that the layer is removed by ablation.
 6. The method as claimed in claim 5, characterized in that the ablation is performed by laser light and/or electrical energy, in particular electric current.
 7. The method as claimed in claim 3, characterized in that the layer of the at least one assembly is removed from the conductor in the region of press-in pins which connect the conductor of the assembly to at least one assembly element.
 8. The method as claimed in claim 3, characterized in that the layer of the at least one assembly is removed, in particular, from the conductor which comprises the electrical contacts, which are routed through the housing wall, in the region of said electrical contacts outside the housing.
 9. An electronic module, comprising a housing and at least one electronic assembly, wherein the electronic assembly is arranged, in particular at least partially, in an interior space in the housing, wherein however electrical contacts are routed through a housing wall of the housing, out of an interior space in the housing, to an outer face of the housing, wherein the interior space in the housing is filled with a casting compound at least in such a way that the casting compound covers passage points in the housing wall at which the electrical contacts are routed through the housing wall, characterized in that one layer of the at least one assembly is removed at least in the region of the passage points in the housing wall.
 10. The module as claimed in claim 9, characterized in that the assembly comprises at least one electrical conductor and at least one assembly element, wherein the layer which is removed is removed from the conductor.
 11. The module as claimed in claim 9, characterized in that the layer, which is removed, of the at least one assembly is a protective layer.
 12. The module as claimed in claim 10, characterized in that the electrical conductor, in particular in the form of a shunt, comprises the electrical contacts which are routed through the housing wall.
 13. The module as claimed in claim 10, characterized in that the casting compound covers the at least one conductor, at least within the housing.
 14. The module as claimed in claim 10, characterized in that the at least one assembly element is arranged in the housing outside the casting compound.
 15. The module as claimed in claim 10, characterized in that the layer of the at least one assembly is removed from the conductor in the region of press-in pins.
 16. The module as claimed in claim 10, characterized in that the layer of the at least one assembly is removed from the conductor in the region of the electrical contacts outside the housing. 